Automatic magnetic inspection apparatus



R. L. FITCH AUTOMATIC MAGNETIC INSPECTION APPARATUS Nov. 4, 1947.

Filed July 5, 1943' 4 Sheets-Sheet l 4 Shets-Sheet 2 R. L. FITCH AUTOMATIC MAGNETIC INSPECTION APPARATUS Fiied July 5. 1943 Nov. 4,1947, I R. L. FITCH 2,430,167

I AUTOMATIC MAGNETIC IITSPEGTIOII APPARATUS Filed July 5, 194: 4' Sheets-Sheet a 'T:I C1:: 50, INVENTOR; v 1 km Elm Pa /W014. 522/,

Nov 4, 1947. R. FITCH 2,430,167

AUTOMATIC MAGNETIC INSPECTION APPARATUS Filed Jul 5, 1945 '4 She et s-Shee't 4 A? A mmwoa Bay/x0014 Patented Nov. 4, 1947 UNITED AUTOMATIC MAGNETIC INSPECTION APPARATUS Raymond L. Fitch, Pacific Palisades,- Calif. Application July 5, 1943, Serial No. 493,568

Claims.

My invention relates generally to magnetic inspection apparatus, and more particularly to apparatus which is automatic in its operation and which thereby substantially eliminates the human element in the magnetic inspection of metals.

In order to secure thoroughly satisfactory results in the operation of magnetic inspectionoperated inspection machine which has proved very satisfactory, but which, as do all manuallyoperated machines, depends upon the skill of the operator for the excellence of its results.

The major object of this present invention is to provide magnetic inspection apparatus which substantially eliminates possible errors in judgment of the operator, since the operator merely initiates the action of the machine and the complete cycle of operations is then carried on automatically. As previously mentioned, it is quite important that the piece being inspected be magnetized immediately after the flooding ceases, and by accomplishing this timing automatically, the apparatus of my invention eliminates all human errors in this part of the cycle.

Another object of my invention is to provide magnetic inspection apparatus in which the flow of the inspection medium is uniform across the whole span of thework being inspected, it being possible to instantly interrupt the entire flow as desired.

For consistency of results, it is necessary that the magnetizing time be accurately adjusted and be uniformly applied; and it is an object of my invention to provide apparatus which will do this automatically.

It is a further object of my invention to provide a novel spring-loaded headstock which insures adequate support of the workpiece with a minimum ofeffort on the part of the operator. In conjunction with the spring-loaded headstock,

. I also provide an adjustable tailstock which can be locked quickly and easily in a minimum of time.

These and other objects and advantages of my invention Will become apparent from the following description of a preferred form thereof,

andirom the accompanying drawings, in which;

Fig. 1 is. a front .elevational view of a preferred 2 form of my apparatus shown with the housing partially broken away;

Fig. 2 is a vertical section taken :along the linen-+2 of Fig. 1

Fig. 3 is atop plan view of the machine;

Fig. l *is an end partly section of the movable tailstock, and taken as indicated by the line 4-4 of Fig. 5;

Fig. 5 is a front elevational view, partially in section, of the tailstock taken as indicated on the line --5 of Fig. 4;

Fig. 6 is a top plan view of the tail stock assembly.

- Fig. .7 is a front elevational view, partly in section of "the spring-loaded headstock;

Fig. 8 is a vertical end section oil-the headstock taken on the line 8-8 of 7 Fig. is a top plan view of the headstock, 'partiarly section;

Fig. i0 is a horizontal section taken on 'the'line ill-19 of Fig. '1;

Fig. 11 is an enlarged detailpartly in section of the switch mechanism; and

. Fig. 12 is an end view or the mechanism shown in Fig. 11..

Referring now .to the drawings, and particn' larly-to Figs. 1 and '2 thereof, the numeral it in dicates the'base or :a cabinet includes front and rear panels 11 and i2 and vertical sidewalls l3 and t4, the cabinet being preferably mounted on casters l5 so'that it can be moved about without undue effort. Disposed the upper portion of the. cabinet is a sum it comprising sloping front and rear walls I! and i8, and sloping. end walls i=3 and :21], respectively, the bottom of the having .a drain pipe .2! connected thereto. The drain pipe 2:! feeds by means of a horizontal connecting pipe 22 'to :a pump 2 3' whose fiunction will be discussed more in detaildater.

Suitably supported above the sump IE6 is channel-iron. 26 which extends across the entire Width of themachine, and serves as a support or. base for the parts which hold the piece to be inspected in :a horizontal position by adjustable contact plates. Because the base of one of these clamping devices is stationary, I will refer to it as the headstock while the other clamping device which is. movable along the channel 25 will be referred to herein as the ta-ilstock.

The headstock is indicated generally by "the numeral 24 and as seen best in Fig. 1, it is preferably located at the left end of the machine, and has its body portion fastened to the channel iron 26 by suitable .means such as bolts 25. The body portion. of theheadstock comprises a base 21,

front and rear upstanding webs 28 and 28a, and walls 29 and 38, respectively, and centrally-disposed bearing posts 3| and 3la. While the body portion of the headstock is fixed, the clamping head 32 which is carried by upper and lower horizontal supporting bars 33 and 34, has a limited horizontal .movement. The clamping head 32 carries a copper or other electrical conduction contact plate 35 suitably insulated from the head 32 by a layer of fiber or other suitable insulating material 36. The contact plate 35 is, however, electrically connected to the lower supporting bar 34 by means of a screw 37 which also serves to additionally support the plate on the clamping head 32, it being noted that the head 32 is insulated from its lower supporting bar '35 by a nonconducting bushing 38.

The upper horizontal bar 33 is slideably mounted in end walls 29 and 38 of the headstock, and is normally urged outwardly (to the right in Fig. 1) by a spring 39 which surrounds the inner end of the bar 33 and bears against a collar 48 which is integral with the bar 33. A second collar 4| is fastened to the bar 33, and is adapted to engage the rear face of the forward wall 29 to limit the forward movement of the clamping head. The clamping head is adapted to be retraoted by movement of a lever 42 from the position marked A in Fig. 7 to the position marked 3" in said figure. The lever 42 is keyed to a horizontal shaft 43 which is rotatably mounted in posts 3! and 32 and carries a yoke 44 adapted to engage the collar 48 on the bar 33, and move the same inwardly against the action of the spring 39. Suitable locking means (not shown) may be provided if desired for holding the lever 42 in position B, but normally this is not necessary. The lower supporting bar 34 is slidable through wall 29 from which it is insulated, and its rear end is connected to a battery 46 by means of cables 45 and 45a which are joined through a junction box or small bus bar 45b.

As seen best in Figs. 4 and 5, the channel iron 28 Which-extends across the central portion of the cabinet adjacent to the upper end thereof has a track plate 4! securely bolted thereto, the track 47 being somewhat wider than the channel 26, and overhanging its sides. A movable tailstock 49 comprising a base portion 58 and an upstanding forward wall is slideably mounted on the track plate 41 and lockable thereto.

The bottom of the base portion 59 is recessed or grooved to accommodate the track plate 41 and is then counter-grooved and provided with a longitudinal bearing plate 8!, which rests on the track plate 47. Cover plates 53 and 54 are bolted to the bottom of the base 58 in a position underlapping the lower face of the track 41, but not engaging the channel 28. It will thus be seen that the tailstock is securely held against vertical movement by the cover plates 53 and 54 which engage the bottom of the track 41, and the bearing plate 8| which slides on the top thereof. The tailstock is, however, free to mOVe lengthwise along the track 41 unless clamped thereto as now to be described.

The tailstock 49 is provided with front and rear web plates 52 and 55, between which is a boss 55 having spaced vertical cars. A horizontal shaft 5? provided with an operating arm 58 fastened to one end thereof is journaled in the boss ears and the webs as seen best in Fig. 4. The center portion of the shaft 57 is partially cut away and rounded to provide an eccentric camming surface 59 which engages the upper end of. a vertipin 57.

cal plunger 60 which is slidable through a vertical bore in the boss 55, and bears against the upper face of bearing plat 6|. A spring 32 surrounds the plunger 69 with one end bearing against; the upper face of the boss 55 and the upper end bearing against a collar 83 fastened to the plunger 89, whereby the plunger is normally urged upwardly out of engagement with the bearing plate 61.

However, when the crank arm 58 is rotated from the vertical position shown in broken lines in Fig. 5 to the horizontal position shown in full lines in said figure, the eccentric portion 59 of the shaft 5! is rotated to throw its high side against the plunger 59 and force it down against the bearing plate 6|. This securely clamps the track plate 47' between the bearing plate 5| and the cover plates 53 and 54 so that the tailstock is locked in position and can stand considerable longitudinal force. It will be apparent of course that by raising the crank arm 58 to the vertical position the plunger 60 will be released and the tailstock may be readily slid along the track plate 47 to any convenient position.

The shaft 51 carries a cam 54 on its rear end which is engaged by a cam follower carried on the end of a crank arm 66 pivoted on a horizontal The other end of the crank arm 68 is pivotally connected at 68 to a substantially vertical link 89 made of insulating material which in turn is pivotally connected at T0 to the forward end of a lever 89 pivotally mounted at 8| on an extending arm or bracket 82 carried on the rear side of the tailstock. The rear end of the arm 88 is provided with a semi-cylindrical clamping face 83 adapted to engage a horizontal bus bar 84 which extends along the rear of the machine. The bracket 82 is provided with a similar semicylindrical clamping face 85 immediately above the face 83 and adapted to cooperate therewith so that the two faces together will securely clamp the bus bar 84 when the link 69 is pulled down. It will be apparent that rotation of the crank arm 58 with consequent rotation of the shaft 51 and cam 64 will bring the high side of the cam 64 against the follower 65 which will raise the crank arm 56, thus pulling the link 69 downwardly and raising face 89 upwardly into tight engagement with the bus bar 84. It is thus seen that the tailstock cannot only be securely clamped to its track 4'! but can also be securely clamped to the bus bar 84 which extends the full length of the apparatus.

In the operation of the work-holding means, the tailstock is moved along the track until the distance between it and the headstock is slightly less than the length of the workpiece. The tailstock is then clamped in this position by rotation of the crank arm 58 as previously described which rotation also causes contact to be established between the clamping face 83, carried by tailstock, and the bus bar 84. The contact plate of the tailstock is indicated by the numeral 86 and is electrically connected to the bracket 82 but is suitably insulated from the balance of the tailstock by an insulating sheet 81. The headstock lever 42 is moved to retract'its contact plate 35, the workpiece is placed in position between the two contact plates, and the lever 42 is released a1- lowing the spring 39 to urge the contact plate 35 firmly against the end of the workpiece and to hold the same in fixed position between the contact plates of the headstock and the tailstock, so that it may be flooded with iron oxide paste or such other material as may be used as an inspection medium. By spring loading the headstock contact face, I provide a simple and effective means of adjusting the workpiece .in the machine,

and exerting suflicient pressure thereon to hold it securely inplace for testing purposes.

As previously mentioned, one of the features .of my invention :is the provision of effective means the rear of the central portion thereof. The header .9! is provided with a longitudinal slot or a series of openings to allow the inspection medium to flow out of the header and fall downwardly. To easily control the pressure in the header and therefore the rate of flow of the fluid through the apertures therein, Iprefer to connect the open end of the header to a vertical pipe 92 which is provided with a valve or gate 193 at its lower end, so that by Varying the valve opening, the back pressure on the header is varied, and the amount of fluid discharged therefrom is therefore varied.

' It will be understood, of course, that the inspection medium falls into the sump I6 and is recirculated bythe pump.

A baffle plate I93 is pivotally mounted at its upper edge on a shaft 99 adjacent the header 9|,

so that it can be swung into the path of the liquid flowing from the header, to direct the liquid onto the work to be tested soas to completely and uniformly flood the same. When the baflie I93 is retracted, as by gravity in the form shown, the inspection medium willfiow down behind the work and will not interfere with the testing operations.

As a simple and convenient means of operating the bafile 93, I provide an arm 95 pivotally mounted at 96 and adjusted so that its forward end will engage the under side of the baffle. The arm '95 is .pivotally connected by means of a link 91 toan arm 98 of a bell crank whose other arm 99 is operated by the upper end of a vertical rod I99 which is adapted to move vertically in a bracket IN and is provided with a horizontal arm I92 on its lower end. The outer end of thearm I92 engages the upper end of a vertical push rod I94 whose lower end I95 is operated by the rear end I99 of a foot treadle whose forward end is indicated by the numeral I91 and which is pivoted at I98 .to the lower portion of the machine.

The lower portion of the push rod I94 passes through a cylinder I99 provided with upper and lower-heads H9 and III, respectively' A piston head H2 is fast to that portion of the push rod which extends through the cylinder I99, and a spring I I3 surrounds the push rod between piston II2,-and cylinder head II9 to normally urge the piston head and its associated push rod downwardly. The cylinder I99 is provided at its lower end with a needle valve H9 and a check valve I I5 so adjusted that when the piston I I2 is raised, air will flow freely into the cylinder through the check valve I I5, and when the piston is lowered, the air will be slowly expelled from the cylinder through the needle valve H9, thus cushioning the downward movement of the piston and delaying its travel. It will be obvious that by varying the setting of the needle valve H t, the rate of return travel of the piston H2, and consequently the push rod I99, can be governed within very accurate limits.

From the foregoing, it will be seen that when the forward end I9! of the foot treadle is depressed, its rear end I96 will force the push :rod

valve through the workpiece for the required time and through the bracket 92 to the bus bar 94.

wardly to a position where the inspection medium will cascade down over the baffle "and onto the work being inspected. So long-as the foottreadle is retained in the depressed position, the inspec- 'tion medium will continue to flood the workpiece.

Vlhen it is desired to magnetize the workpiece, the foot is removed from the treadle .whichallows the push rod with its related mechanism to move downwardly bythe force of gravity andthespring H3, thus allowing the bafiie I93 to swingdownwardly to its normal position-where the inspection medium .no long'er floods the work. This return movement of the push rod I95 whose rate of travel is governed by the setting of the needle II I completes the magnetizing circuit then disconnects the circuit after the work has been sufficiently magnetized, the adjustment of the parts being such that the current starts flowing the instant the inspection medium :ceases to .flow over the workpiece.

In the preferred form of my invention :illustrated .herein, I control the magnetizing circuit by means of a cam llefastened on the push rod tionary switch contact I I8 carried on :a bracket II 8a. The other battery terminal as previously mentioned is connected through cablesx llia and 95 through the headstock contact plate to the work :being tested, which completes the circuit between the headstock contact plate 351-2116. the tailstock contact plate -39 which is connected A cable II9 leads from the bus bar .99 to one side of a rheostat I29, preferably of the carbon :pile type, and from the rheostat through a cable I2-I to a bus bar I22. A knife switch I23 pivoted ".011 the bus bar I22 and adapted to -be operated by a pair of toggle levers I29 and I-25, the latter'oi which-is connected through ashaft I29 to handle I21, is adapted to short circuit the rheostat =I29 when it is desired to pass the entire available current fromthe battery through the work being inspected; however, for smaller pieces where .a less "magnetizing current is needed, the knife switch is thrown to the off position, so that the magnetizing current passes through the rheostat tact face H8. The arm Itl is bored to receive the bolt I39 and helical spring I39 urges the arms I3I and 1-29 apart. The contacts II3 and I33 are held normally open by a helical springv I62 mounted between the upper end I99 of arm 1-29 and the head of a bolt IISI which extends through the arm portion IIiI and is anchored in bracket IIBa. A small bell crank having-a horizontal arm I35 is pivoted at I39 on the arm vIZtI-just above the bolt I39 and has its depending arm 139a engageable with a stop I3! provided on the arm I29 to limit the movement of the crank. The horizontal crank arm 1.951s disposed adjacent the push rod'l04 and is in the path of the cam I I6 so as to be engaged thereby during its vertical movement.

When the push rod I04 and its cam IIE are moved upwardly, the cam I36 will slide by the crank arm 135 which is freely movable in that direction on its pivot I36. However, when the cam H5 returns, its lower face will engage the crank arm I35 and rotate the crank so that the depending arm I 35a engages the stop I3? which will cause the arms I29 and I3! to swing towards the fixed contact II8 (to the left in Fig. l). The movable contact H3 thereupon engages the fixed contact I I8 to close the magnetizing circuit in the manner previously described, and further downward movement of the cam Iifi compresses the spring I34 and causes the arm I29 to move toward the arm I3I'by virtue of the pivot connection I32. This increases the pressure between the contact H8 and I33 and displaces the arm I 3I slightly in a vertical direction, thus giving a wiping action to the contacts and minimizing the efiects of pitting. The speed of the push rod IE4 is so adjusted by adjustment of the needle valve I I4 that the contacts I I8 and I33 are kept in engagement just the proper length of time to fully magnetize the workpiece, and when this interval of time has expired, the cam H6 will have passed below and become disengaged with the crank arm I35, permitting the arms I29 and I3! to return to their normal position, breaking the magnetizing circuit.

It is thus seen that by depressing the treadle I01, the operator starts th necessary cycle of operations by directing the flow of inspection medium across the workpiece. When the piece to be tested has been adequately flooded, the operator removes his foot from the treadle which causes the flow of inspection medium to be directed away from the work and a proper magnetizing current sent through the work for the proper time, the current being automatically disconnected without further action on the part of the operator. In this connection, it will be understood, of course, that instead of operating the push rod I04 through direct connection with the treadle I01, the inlet valve H5 can be connected to a source of compressed fluid so that operation of the treadle or valve means injects a flow of fluid into the cylinder I09 to raise the piston H2,

whereupon the flow of fluid into the cylinder is discontinued and the piston and push rod travel back down to their normal position by escape of the fluid through the needle valve I I4.

It is important that the inspection medium .and I prefer to accomplish this agitation by providing a by-pass connection I 40 from the outlet side of the pump 23 into the lower portion of the sump I6, the by-p-ass I40 being provided with a header I4I having a plurality of openings therein to jet the liquid into the lower portion of the sump, and keep the mixture thoroughly agitated.

In some instances, it is desirable to have auxiliary means for flooding the workpiece and for this purpose, I provide an auxiliary hose I 42 leading from the outlet side of the pump 23 and terminating in a connection and valve I43 so that a manually-operated hose can be attached to the connection I43 for supplemental spraying of the piece.

In some instances it will be desired to operate the baflie plate I03 manually so as to flood the workpiece without initiating the electrical circuit cycle; and as one means of accomplishing this, I provide the arm I02 with an extension I44 which "when moved throws the arm I02 out of engagement with the push rod I04. I also provide a valve I45 in the pipe 90 so that the flow of fluid therethrough into the header 9| can be varied or discontinued as desired. In some instances it will be advisable to interconnect the valve I45 and the arm I44 so that closure of the valve will activate the arm I44 and disconnect the bafile assembly from the push rod I04, thus permitting operation thereof without the flow of any fluid through the header and permitting separate operation of the switch mechanism cycle without corresponding operation of the baflie mechanism.

In the form of my apparatus which employs storage batteries, I also provide a battery charger I 46 which can be disposed adjacent the pump motor I41 and provided with suitable connections for'hooking into an electric circuit. The charger will usually be of the dry plate rectifier type where alternating current is available, and for other installations, a small generator can be connected to use the batteries only as an auxiliary source of power or possibly to eliminate them entirely. Furthermore, in those installations which are provided with a generator, it may be found advisable to'draw the magnetizing current directly from the generator which is kept continuously operating during the inspection operation. While the current load is very high, sometimes in the vicinity of 5,000 amperes, still it is only drawn for a very small time, usually a fraction of a second, and consequently a generator can supply this surge of current momentarily without unduly 0verheating, and likewise, storage batteries or rectifiers can supply the current surge without undue deterioration;

In the preferred form of my invention as illustrated herein, I provide an instrument panel I50 on the front face of the apparatus, and include therein an ammeter I 5| in the magnetizing circuit, and a charging ammeter I52 with a charging switch I 53 and indicator light I54. If desired, a pump motor switch I55 and indicator light I56 may also be placed on the instrument panel so that all of the major controls are conveniently in one place, except the rheostat I5! and the knife switch toggle handle I21 which are more conveniently located to the left of the instrument panel I50.

It will be understood that while the form of my invention described herein is fully capable of attaining the objects and providing the advantages hereinbefore stated, it is merely illustrative of the present preferred embodiment of my invention, and I do not mean to limit myself to the details shown, but rather intend that my invention be accorded the broad scope defined in the appended claims.

7 I claim:

1. In apparatus for magnetically inspecting paramagnetic bodies, the combination of a normally open electric circuit adapted to have a paramagnetic body connected therein as a part of said circuit; means to hold said body in said circuit in position to be inspected; a source of electric energy connected in said circuit; means for continuously conveying an inspection medium past a point above said body to be tested; movable means; mounted: above. said body and: below said fluid delivery: point. adapted in one position todirect thefl'o-w. of saidimedium over said entire body; meansfor moving said: movable means to discontinue the flow of said medium over said body; and means responsive tomovement' of said movable means for closing said circuit to: magnetize said body.

2; In apparatus for magnetically inspecting paramagnetic bodies, the combination of: a normally open electric circuit adapted to have a paramagnetic body connected therein as a part of said circuit; means to hold said body in said circuit in position to be inspected; a source of electric energy connected in said circuit; a header disposedv above said body and adapted toreceive and; discharge an inspection medium; a pivoted baffle plate mounted between said header and said body adapted tobe swung into operative position to direct the flow of said medium from said header: and distribute the same over said body; means for swinging said: baffle plate into and out of operative position; and means responsive to said last mentioned means for quickly closing said circuit upon the movement of said bafile plate to a position where saidmedium. is no longer directed over said body.

3. In apparatus for magnetically inspecting paramagnetic bodies, the combination of: a normally open electric circuit adapted to have a paramagnetic body connected therein as a part of said circuit; means to hold said body in said circuit in position to be inspected; a source of electric energy connected in said circuit; a system for circulating an inspection medium including a pump, a header above said body, and a sump to receive said medium and return the same to said pump, whereby said medium is constantly circulated through said system; means movably mounted between said header and said body for causing a flow of said medium over said body or away from the same without interrupting said constant circulation; and means operatively associated with said movable means for closing said circuit while said medium is circulating through said header but not flowing over said body.

4. In apparatus for magnetically inspecting paramagnetic bodies, the combination of: a normally open electric circuit adapted to receive a paramagnetic body therein as a part of said circuit; means to hold said body in said circuit in position to be inspected; a source of electric energy connected to said circuit; means for directing a flow of inspection medium over said body; a movable rod adapted to operate said fiow directing means to cause the same to direct said medium over said body when said rod is at one end of its travel; a switch adapted to close said circuit; and means on said rod adapted to close said switch during a portion of the return stroke of said rod and after the fiow of said medium over said body has been discontinued a a consequence of the return of said rod; and means for controlling the rate of travel of said rod on its said return stroke to thereby control the time which said circuit is closed.

5 In apparatus for magnetically inspecting paramagnetic bodies, the combination of a normally open electric circuit adapted to have a paramagnetic body connected therein as a part of said circuit; a source of electric energy connected in said circuit; a spring-loaded headstock having a contact plate connected in said circuit; a movable tailstock carrying a contact plate and adapted to be clamped in position to hold said body between said: contact plates, saida tailstock carrying. a; clamp slidable along a. bus: bar in said circuit and adapted to electrically connect said second contact plate to said bus, bar when said tailstock is in clamped position; a header disposed above and to the rear of said stocks provided with an aperture. therein; a pump and piping for circulating inspection. medium through said header; a pivoted bailie plate beneath said header and adapted to direct the flow of inspection medium therefrom over said body when. the same is clamped between said stocks a vertically movable push rod disposed below said stocks and adapted to operatesaid bafiie throughv a linkage,.said' rod being disconnectable from. said linkage and. having a cam on its mid portion and a piston on its lower portion; said piston being operable in a cylinder having inlet. and; outletvalves; a switch mechanism having. a bell-crank adapted to be operated by said cam to close said switch, with a; wiping action between the contacts of said switch, said switch remainin closed until said cam passes said belL-crank; and meansfor varying the current passing through said circuit.

6. In apparatusv for magnetically inspecting paramagneticbodies, the combination: of: a normally open electric circuit adapted to receive a paramagnetic body therein as a part of said circuit; means to hold said body in said circuit in position to be inspected; a source of electric energy connected in said circuit and adapted to energize the same; a movable baffle plate for directing a flow of inspection medium over said body; a, movable member adapted to operate said baffle plate to cause the same to direct said medium over said body when said member is at one end of its travel; a switch adapted to close said circuit; and means on said movable member adapted to close said switch during a portion of the return stroke of said member and after the flow of said medium over said body has been discontinued as a, consequence of the return of said member.

7. In apparatus for magnetically inspecting paramagnetic bodies, the combination of: a normally open electric circuit adapted to receive a paramagnetic body therein as a part of said circuit; means to hold said body in said circuit in position to be inspected; a source of electric energy connected in said circuit and adapted to energize the same; pivoted means for directing a flow of inspection medium over said body; a movable member adapted to operate said flow directing means to cause the same to direct said medium over said body when said movable member is in one position; a switch adapted to close said circuit; and means on said movable member adapted to close said switch during a portion of the movement of said member and after the flow of said medium over said body has been discontinued as a consequence of the movement of said member.

8. In apparatus for magnetically inspecting paramagnetic bodies, the combination of: means forming a normally open electric circuit adapted to have a paramagnetic body connected therein as a part of said circuit; means to hold said body in said circuit in position to be inspected; at source of electric energy connected in said circuit and adapted to energize the same; a baille plate movably mounted above said body and adapted when in Operative position to direct liquid thereover; means mounted above said baffle plate and adapted to discharge an inspection medium thereon; means for moving said baille plate into said operative position comprising a vertically movable push 11 red and a linkage connecting the same to said plate; and switch means adapted to be closed by the return movement of said rod to thereby close said circuit and magnetize said body,

9. In apparatus for magnetically inspecting paramagnetic bodies, the combination of: a normally open electric circuit adapted to have a paramagnetic body'connected therein as a part of said circuit; means to hold said body in said circuit in a position to be inspected; a source of electric energy connected in said circuit and adapted to energize the same; movable means for directing a uniform flow of inspection medium over said entire body at once and for discontinuing said entire flow at once; and means operatively associated with said flow directing means and responsive to movement thereof for quickly closing said circuit for a predetermined time upon such discontinuance of said flow.

10. In apparatus for magnetically inspecting paramagnetic bodies, the combination of: a normally open electric circuit adapted to have a paramagnetic body connected therein as a part of said circuit; means to hold said body in said circuit in a position to be inspected; a source of electric energy connected in said circuit and adapted to energize the same; means for directing a. uniform flow of inspection medium over said entire body at once and for discontinuing said entire flow at once; switch means for closing said circuit for a predetermined time and then opening the same; and means operatively associated with said flow directing means and said switch means to operate the latter in response to movement of the former.

RAYMOND L. FITCH.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS 

